In C programming, data types are declarations for variables. This determines the type and size of data associated with variables. For example,
int myVar;
Here, myVar is a variable of int (integer) type. The size of int is 4 bytes.
Basic types
Here's a table containing commonly used types in C programming for quick access.
| Type | Size (bytes) | Format Specifier |
|---|---|---|
int |
at least 2, usually 4 | %d, %i |
char |
1 | %c |
float |
4 | %f |
double |
8 | %lf |
short int |
2 usually | %hd |
unsigned int |
at least 2, usually 4 | %u |
long int |
at least 4, usually 8 | %ld, %li |
long long int |
at least 8 | %lld, %lli |
unsigned long int |
at least 4 | %lu |
unsigned long long int |
at least 8 | %llu |
signed char |
1 | %c |
unsigned char |
1 | %c |
long double |
at least 10, usually 12 or 16 | %Lf |
int
Integers are whole numbers that can have both zero, positive and negative values but no decimal values. For example, 0, -5, 10
We can use int for declaring an integer variable.
int id;
Here, id is a variable of type integer.
You can declare multiple variables at once in C programming. For example,
int id, age;
The size of int is usually 4 bytes (32 bits). And, it can take 232 distinct states from -2147483648 to 2147483647.
float and double
float and double are used to hold real numbers.
float salary;
double price;
In C, floating-point numbers can also be represented in exponential. For example,
float normalizationFactor = 22.442e2;
What's the difference between float and double?
The size of float (single precision float data type) is 4 bytes. And the size of double (double precision float data type) is 8 bytes.
char
Keyword char is used for declaring character type variables. For example,
char test = 'h';
The size of the character variable is 1 byte.
void
void is an incomplete type. It means "nothing" or "no type". You can think of void as absent.
For example, if a function is not returning anything, its return type should be void.
Note that, you cannot create variables of void type.
short and long
If you need to use a large number, you can use a type specifier long. Here's how:
long a;
long long b;
long double c;
Here variables a and b can store integer values. And, c can store a floating-point number.
If you are sure, only a small integer ([−32,767, +32,767] range) will be used, you can use short.
short d;
You can always check the size of a variable using the sizeof() operator.
#include <stdio.h>
int main() {
short a;
long b;
long long c;
long double d;
printf("size of short = %d bytes\n", sizeof(a));
printf("size of long = %d bytes\n", sizeof(b));
printf("size of long long = %d bytes\n", sizeof(c));
printf("size of long double= %d bytes\n", sizeof(d));
return 0;
}
signed and unsigned
In C, signed and unsigned are type modifiers. You can alter the data storage of a data type by using them:
signed- allows for storage of both positive and negative numbersunsigned- allows for storage of only positive numbers
For example,
// valid codes
unsigned int x = 35;
int y = -35; // signed int
int z = 36; // signed int
// invalid code: unsigned int cannot hold negative integers
unsigned int num = -35;
Here, the variables x and num can hold only zero and positive values because we have used the unsigned modifier.
Considering the size of int is 4 bytes, variable y can hold values from -231 to 231-1, whereas variable x can hold values from 0 to 232-1.
Derived Data Types
Data types that are derived from fundamental data types are derived types. For example: arrays, pointers, function types, structures, etc.
We will learn about these derived data types in later tutorials.
- bool type
- Enumerated type
- Complex types